Cordula Pertl scite author profile

Cordula Pertl

5Publications

82Citation Statements Received

33Citation Statements Given

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116

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Ludwig-Maximilians-Universität München, Friedrich Baur Stiftung

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Evaluation of the therapeutic potential of carbonic anhydrase inhibitors in two animal models of dystrophin deficient muscular dystrophy

Giacomotto

Pertl²,

Borrel

et al. 2009

Human Molecular Genetics

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Duchenne Muscular Dystrophy is an inherited muscle degeneration disease for which there is still no efficient treatment. However, compounds active on the disease may already exist among approved drugs but are difficult to identify in the absence of cellular models. We used the Caenorhabditis elegans animal model to screen a collection of 1000 already approved compounds. Two of the most active hits obtained were methazolamide and dichlorphenamide, carbonic anhydrase inhibitors widely used in human therapy. In C. elegans, these drugs were shown to interact with CAH-4, a putative carbonic anhydrase. The therapeutic efficacy of these compounds was further validated in long-term experiments on mdx mice, the mouse model of Duchenne Muscular Dystrophy. Mice were treated for 120 days with food containing methazolamide or dichlorphenamide at two doses each. Musculus tibialis anterior and diaphragm muscles were histologically analyzed and isometric muscle force was measured in M. extensor digitorum longus. Both substances increased the tetanic muscle force in the treated M. extensor digitorum longus muscle group, dichlorphenamide increased the force significantly by 30%, but both drugs failed to increase resistance of muscle fibres to eccentric contractions. Histological analysis revealed a reduction of centrally nucleated fibers in M. tibialis anterior and diaphragm in the treated groups. These studies further demonstrated that a C. elegans-based screen coupled with a mouse model validation strategy can lead to the identification of potential pharmacological agents for rare diseases.

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A new web-based method for automated analysis of muscle histology

Pertl

Eblenkamp

Pertl

et al. 2013

BMC Musculoskelet Disord

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BackgroundDuchenne Muscular Dystrophy is an inherited degenerative neuromuscular disease characterised by rapidly progressive muscle weakness. Currently, curative treatment is not available. Approaches for new treatments that improve muscle strength and quality of life depend on preclinical testing in animal models. The mdx mouse model is the most frequently used animal model for preclinical studies in muscular dystrophy research. Standardised pathology-relevant parameters of dystrophic muscle in mdx mice for histological analysis have been developed in international, collaborative efforts, but automation has not been accessible to most research groups. A standardised and mainly automated quantitative assessment of histopathological parameters in the mdx mouse model is desirable to allow an objective comparison between laboratories.MethodsImmunological and histochemical reactions were used to obtain a double staining for fast and slow myosin. Additionally, fluorescence staining of the myofibre membranes allows defining the minimal Feret’s diameter. The staining of myonuclei with the fluorescence dye bisbenzimide H was utilised to identify nuclei located internally within myofibres. Relevant structures were extracted from the image as single objects and assigned to different object classes using web-based image analysis (MyoScan). Quantitative and morphometric data were analysed, e.g. the number of nuclei per fibre and minimal Feret’s diameter in 6 month old wild-type C57BL/10 mice and mdx mice.ResultsIn the current version of the module “MyoScan”, essential parameters for histologic analysis of muscle sections were implemented including the minimal Feret’s diameter of the myofibres and the automated calculation of the percentage of internally nucleated myofibres. Morphometric data obtained in the present study were in good agreement with previously reported data in the literature and with data obtained from manual analysis.ConclusionsA standardised and mainly automated quantitative assessment of histopathological parameters in the mdx mouse model is now available. Automated analysis of histological parameters is more rapid and less time-consuming. Moreover, results are unbiased and more reliable. Efficacy of therapeutic interventions, e.g. within the scope of a drug screening or therapeutic exon skipping, can be monitored. The automatic analysis system MyoScan used in this study is not limited exclusively to dystrophin-deficient mice but also represents a useful tool for applications in the research of other dystrophic pathologies, various other skeletal muscle diseases and degenerative neuromuscular disorders.

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The Stern–Gerlach polarized ion source for the Munich MP-tandem laboratory, a bright source for unpolarized hydrogen and helium ion beams as well

Hertenberger

Metz

Eisermann

et al. 2005

Nuclear Instruments and Methods in Physics Research Section A:

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Divergent Molecular Effects of Desmin Mutations on Protein Assembly in Myofibrillar Myopathy

Xiong

Bulst²,

Thirion³

et al. 2010

J Neuropathol Exp Neurol

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Mutations in the intermediate filament protein desmin cause a distinct class of myofibrillar myopathies that are characterized by deposition of aggregated desmin. To assess the effect of different disease-associated mutations at the molecular level, we applied confocal single-particle fluorescence spectroscopy. We studied the de novo aggregation properties of desmin in vitro and the aggregation state of desmin in homogenates of transfected cells rendering purification unnecessary. We detected divergent assembly patterns for 3 different desmin missense mutations. R350P-desmin showed a strong inhibition of assembly formation that was associated with a reduced level of tetramers and an increase in dimers in native cell extracts. E413K-desmin formed hyperstable tetramers. For R454W-desmin, there were subtle effects on assembly at the dimer and tetramer levels by single-particle spectroscopy that are not detectable by classical fluorescence microscopy. We also found that R350P-desmin efficiently interacts with the wild-type protein resulting in a dominant-negative effect on desmin assembly. Taken together, these results provide a molecular basis for a detailed functional classification of mutations in the desmin gene. The findings may also have implications for diagnostic and therapeutic strategies for primary desminopathies based on the different molecular events that disrupt physiological filament formation.

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Carbonic anhydrase inhibitors' effects on dystrophin-deficient mouse muscle

Pertl¹,

Ségalat²,

Walter³

et al. 2009

Klin Neurophysiol

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Cordula Pertl

Evaluation of the therapeutic potential of carbonic anhydrase inhibitors in two animal models of dystrophin deficient muscular dystrophy

A new web-based method for automated analysis of muscle histology

The Stern–Gerlach polarized ion source for the Munich MP-tandem laboratory, a bright source for unpolarized hydrogen and helium ion beams as well

Divergent Molecular Effects of Desmin Mutations on Protein Assembly in Myofibrillar Myopathy

Carbonic anhydrase inhibitors' effects on dystrophin-deficient mouse muscle

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